Tutorials in Introductory Physics - 1st Edition - by Peter S. Shaffer, Lillian C. McDermott - ISBN 9780130970695

Tutorials in Introductory Physics
1st Edition
Peter S. Shaffer, Lillian C. McDermott
Publisher: Addison Wesley
ISBN: 9780130970695

Solutions for Tutorials in Introductory Physics

Browse All Chapters of This Textbook

Chapter 3.3 - Conservation Of Momentum In One Dimensions Chapter 3.4 - Conservation Of Momentum In Two Dimensions Chapter 4.1 - Rotation Motion Chapter 4.2 - Dynamics Of Rigid Bodies Chapter 4.3 - Equilibrium Of Rigid Bodies Chapter 5.1 - Charge Chapter 5.2 - Electric Field And Flux Chapter 5.3 - Gauss' Law Chapter 5.4 - Electric Potential Difference Chapter 5.5 - Capacitance Chapter 6.1 - A Model For Circuits Part 1: Current And Resistance Chapter 6.2 - A Model For Circuits Part 2: Potential Differnce Chapter 6.3 - Rc Circuits Chapter 7.1 - Magnets And Magnetic Fields Chapter 7.2 - Magnetic Interactions Chapter 8.1 - Lenz' Law Chapter 8.2 - Faraday's Law And Applications Chapter 9.1 - Superpositions And Reflection Of Pulses Chapter 9.2 - Reflection And Transmission Chapter 9.3 - Propagation And Refraction Of Periodic Waves Chapter 9.4 - Electromagnetic Waves Chapter 10.1 - Light And Shadow Chapter 10.2 - Plane Mirrors Chapter 10.3 - Curved Mirrors And Multiple Reflections Chapter 10.4 - Interpretation Of Ray Diagrams Chapter 10.5 - Convex Lenses Chapter 10.6 - Magnification Chapter 11.1 - Two-sources Interface Chapter 11.2 - Wave Properties Of Light Chapter 11.3 - Multiple-slit Interface Chapter 11.4 - A Model For Single-slit Diffraction Chapter 11.5 - Combined Interference And Diffraction Chapter 11.6 - Thin-film Interface Chapter 11.7 - Polarization Chapter 12.1 - Pressure In A Liquid Chapter 12.2 - Buoyancy Chapter 13.1 - Ideal Gas Law Chapter 13.2 - First Law Of Thermodynamics Chapter 14.1 - Wave Properties Of Matter Chapter 14.2 - Photoelectric Effect Chapter 15.1 - Velocity-homework Chapter 15.2 - Representations Of Motion-homework Chapter 15.3 - Acceleration In One Dimension-homework Chapter 15.4 - Motion In Two Dimensions-homework Chapter 15.5 - Relative Motion-homework Chapter 16.1 - Forces-homework Chapter 16.2 - Newton's Second And Third Law-homework Chapter 16.3 - Tension-homework Chapter 17.1 - Work And The Work-energy Theorem-homework Chapter 17.2 - Changes In Energy And Momentum-homework Chapter 17.3 - Conservation Of Momentum In One Dimensions-homework Chapter 17.4 - Conservation Of Momentum In Two Dimensions-homework Chapter 18.1 - Rotational Motion-homework Chapter 18.2 - Dynamics Of Rigid Bodies-homework Chapter 18.3 - Equilibrium Of Rigid Bodies-homework Chapter 19.1 - Charge-homework Chapter 19.2 - Electric Field And Flux-homework Chapter 19.3 - Gauss' Law-homework Chapter 19.4 - Electric Potential Difference-homework Chapter 19.5 - Capacitance-homework Chapter 20.1 - A Model For Circuits Part 1: Current And Resistance-homework Chapter 20.2 - A Model For Circuits Part 2: Potential Differnce-homework Chapter 20.3 - Rc Circuits-homework Chapter 21.1 - Magnets And Magnetic Fields-homework Chapter 21.2 - Magnetic Interactions-homework Chapter 22.1 - Lenz' Law-homework Chapter 22.2 - Faraday's Law And Applications-homework Chapter 23.1 - Superpositions And Reflection Of Pulses-homework Chapter 23.2 - Reflection And Transmission-homework Chapter 23.3 - Propagation And Refraction Of Periodic Waves-homework Chapter 23.4 - Electromagnetic Waves-homework Chapter 24.1 - Light And Shadow-homework Chapter 24.2 - Plane Mirrors-homework Chapter 24.3 - Curved Mirrors And Multiple Reflections-homework Chapter 24.4 - Interpretation Of Ray Diagrams-homework Chapter 24.5 - Convex Lenses-homework Chapter 24.6 - Magnification-homework Chapter 25.1 - Two-sources Interface-homework Chapter 25.2 - Wave Properties Of Light-homework Chapter 25.3 - Multiple-slit Interface-homework Chapter 25.4 - A Model For Single-slit Diffraction-homework Chapter 25.5 - Combined Interference And Diffraction-homework Chapter 25.6 - Thin-film Interface-homework Chapter 25.7 - Polarization-homework Chapter 26.1 - Pressure In A Liquid-homework Chapter 26.2 - Buoyancy-homework Chapter 27.1 - Ideal Gas Law-homework Chapter 27.2 - First Law Of Thermodynamics-homework Chapter 28.1 - Wave Properties Of Matter-homework Chapter 28.2 - Photoelectric Effect-homework

Book Details

This landmark book presents a series of physics tutorials designed by a leading physics education research group. Emphasizing the development of concepts and scientific reasoning skills, the tutorials focus on common conceptual and reasoning difficulties. The tutorials cover a range of topics in Mechanics, E & M, and Waves & Optics.

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